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// Copyright (c) 2014 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include "chain.h"
#include "random.h"
#include "util.h"
#include "test/test_bitcoin.h"
#include <vector>
#include <boost/test/unit_test.hpp>
#define SKIPLIST_LENGTH 300000
BOOST_FIXTURE_TEST_SUITE(skiplist_tests, BasicTestingSetup)
BOOST_AUTO_TEST_CASE(skiplist_test)
{
std::vector<CBlockIndex> vIndex(SKIPLIST_LENGTH);
for (int i=0; i<SKIPLIST_LENGTH; i++) {
vIndex[i].nHeight = i;
vIndex[i].pprev = (i == 0) ? NULL : &vIndex[i - 1];
vIndex[i].BuildSkip();
}
for (int i=0; i<SKIPLIST_LENGTH; i++) {
if (i > 0) {
BOOST_CHECK(vIndex[i].pskip == &vIndex[vIndex[i].pskip->nHeight]);
BOOST_CHECK(vIndex[i].pskip->nHeight < i);
} else {
BOOST_CHECK(vIndex[i].pskip == NULL);
}
}
for (int i=0; i < 1000; i++) {
int from = insecure_rand() % (SKIPLIST_LENGTH - 1);
int to = insecure_rand() % (from + 1);
BOOST_CHECK(vIndex[SKIPLIST_LENGTH - 1].GetAncestor(from) == &vIndex[from]);
BOOST_CHECK(vIndex[from].GetAncestor(to) == &vIndex[to]);
BOOST_CHECK(vIndex[from].GetAncestor(0) == &vIndex[0]);
}
}
BOOST_AUTO_TEST_CASE(getlocator_test)
{
// Build a main chain 100000 blocks long.
std::vector<uint256> vHashMain(100000);
std::vector<CBlockIndex> vBlocksMain(100000);
for (unsigned int i=0; i<vBlocksMain.size(); i++) {
vHashMain[i] = ArithToUint256(i); // Set the hash equal to the height, so we can quickly check the distances.
vBlocksMain[i].nHeight = i;
vBlocksMain[i].pprev = i ? &vBlocksMain[i - 1] : NULL;
vBlocksMain[i].phashBlock = &vHashMain[i];
vBlocksMain[i].BuildSkip();
BOOST_CHECK_EQUAL((int)UintToArith256(vBlocksMain[i].GetBlockHash()).GetLow64(), vBlocksMain[i].nHeight);
BOOST_CHECK(vBlocksMain[i].pprev == NULL || vBlocksMain[i].nHeight == vBlocksMain[i].pprev->nHeight + 1);
}
// Build a branch that splits off at block 49999, 50000 blocks long.
std::vector<uint256> vHashSide(50000);
std::vector<CBlockIndex> vBlocksSide(50000);
for (unsigned int i=0; i<vBlocksSide.size(); i++) {
vHashSide[i] = ArithToUint256(i + 50000 + (arith_uint256(1) << 128)); // Add 1<<128 to the hashes, so GetLow64() still returns the height.
vBlocksSide[i].nHeight = i + 50000;
vBlocksSide[i].pprev = i ? &vBlocksSide[i - 1] : &vBlocksMain[49999];
vBlocksSide[i].phashBlock = &vHashSide[i];
vBlocksSide[i].BuildSkip();
BOOST_CHECK_EQUAL((int)UintToArith256(vBlocksSide[i].GetBlockHash()).GetLow64(), vBlocksSide[i].nHeight);
BOOST_CHECK(vBlocksSide[i].pprev == NULL || vBlocksSide[i].nHeight == vBlocksSide[i].pprev->nHeight + 1);
}
// Build a CChain for the main branch.
CChain chain;
chain.SetTip(&vBlocksMain.back());
// Test 100 random starting points for locators.
for (int n=0; n<100; n++) {
int r = insecure_rand() % 150000;
CBlockIndex* tip = (r < 100000) ? &vBlocksMain[r] : &vBlocksSide[r - 100000];
CBlockLocator locator = chain.GetLocator(tip);
// The first result must be the block itself, the last one must be genesis.
BOOST_CHECK(locator.vHave.front() == tip->GetBlockHash());
BOOST_CHECK(locator.vHave.back() == vBlocksMain[0].GetBlockHash());
// Entries 1 through 11 (inclusive) go back one step each.
for (unsigned int i = 1; i < 12 && i < locator.vHave.size() - 1; i++) {
BOOST_CHECK_EQUAL(UintToArith256(locator.vHave[i]).GetLow64(), tip->nHeight - i);
}
// The further ones (excluding the last one) go back with exponential steps.
unsigned int dist = 2;
for (unsigned int i = 12; i < locator.vHave.size() - 1; i++) {
BOOST_CHECK_EQUAL(UintToArith256(locator.vHave[i - 1]).GetLow64() - UintToArith256(locator.vHave[i]).GetLow64(), dist);
dist *= 2;
}
}
}
BOOST_AUTO_TEST_SUITE_END()